Ik Pi 2015 (5 Kt)

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© Siemens AG 2014 Industrial Communication SIMATIC NET Catalog IK PI Edition 2015 Answers for industry. SO_DRUCK_Titel_IKPI_2015_en.indd 3 06.10.2014 11:38:02 © Siemens AG 2014 Related catalogs SIMATIC Products for Totally Integrated Automation ST 70 E86060-K4670-A101-B4-7600 SIMATIC Products for Totally Integrated Automation Motion Control PM 21 SIMOTION, SINAMICS S120 & SIMOTICS Equipment for Production Machines E86060-K4921-A101-A3-7600 ST 70 N Motion Control SINUMERIK & SINAMICS Equipment for Machine Tools NC 61 E86060-K4670-A151-A7-7600 E86060-K4461-A101-A3-7600 SIMATIC HMI / ST 80/ST PC PC-based Automation Human Machine Interface Systems PC-based Automation Motion Control Drives D 31 SINAMICS Inverters for Single-Axis Drives and SIMOTICS Motors E86060-K5531-A101-A1-7600 E86060-E5531-A101-A1-7600 (News) E86060-K4680-A101-C2-7600 SIMATIC SIMATIC PCS 7 Process Control System ST PCS 7 E86060-K4678-A111-B9-7600 SITOP Power supply SITOP D 81.1 E86060-K5581-A111-A6-7600 KT 10.1 E86060-K2410-A111-A9-7600 SIMATIC Ident Industrial Identification Systems SIMOTICS Low-Voltage Motors Type series 1LE1, 1MB1 and 1PC1 Frame sizes 80 to 315 Power range 0.3 to 250 kW ID 10 Low-Voltage Power Distribution and LV 10 Electrical Installation Technology SENTRON • SIVACON • ALPHA Protection, Switching, Measuring and Monitoring Devices, Switchboards and Distribution Systems E86060-K8280-A101-A1-7600 SITRAIN Training for Industry ITC Only available in German E86060-K8310-A101-A9-7600 Industrial Controls SIRIUS E86060-K1010-A101-A4-7600 E86060-K6850-A101-C4 IC 10 Products for Automation and Drives Interactive Catalog, DVD E86060-D4001-A510-D4-7600 Industry Mall Information and Ordering Platform in the Internet: www.siemens.com/industrymall CA 01 © Siemens AG 2014 Industrial Communication SIMATIC NET Introduction 1 PROFINET / Industrial Ethernet 2 PROFIBUS 3 AS-Interface 4 IO-Link 5 Industrial Wireless Communication 6 Industrial Remote Communication 7 Industrial Security 8 Appendix 9 Catalog IK PI · 2015 Supersedes: Catalog IK PI · 2012 Refer to the Industry Mall for current updates of this catalog: www.siemens.com/industrymall The products contained in this catalog can also be found in the Interactive Catalog CA 01. Article No.: E86060-D4001-A510-D3-7600 Please contact your local Siemens branch. © Siemens AG 2014 Printed on paper from sustainably managed forests and controlled sources. www.pefc.org The products and systems described in this catalog are manufactured/distributed under application of a certified quality management system in accordance with DIN EN ISO 9001 (Certified Registration Numbers are shown on page 9/19). The certificate is recognized by all IQNet countries. © Siemens AG 2014 2 Siemens IK PI · 2015 © Siemens AG 2014 Answers for industry. Integrated technologies, vertical market expertise and services for greater productivity, energy efficiency, and flexibility. The Siemens Industry Sector is the world's leading supplier of innovative and environmentally friendly products and solutions for industrial companies. End-to-end automation technology and industrial software, solid market expertise, and technology-based services are the levers we use to increase our customers’ productivity, efficiency and flexibility. With a global workforce of more than 100 000 employees, the Industry Sector comprises the Industry Automation, Drive Technologies, and Customer Services divisions, as well as the Metals Technologies Business Unit. We consistently rely on integrated technologies and, thanks to our bundled portfolio, we can respond more quickly and flexibly to our customers' wishes. With our globally unmatched range of automation technology, industrial control and drive technology as well as industrial software, we equip companies with exactly what they need over their entire value chain – from product design and development to production, sales and service. Our industrial customers benefit from our comprehensive portfolio, which is tailored to their market and their needs. Market launch times can be reduced by up to 50% due to the combination of powerful automation technology and industrial software from Siemens Industry. At the same time, the costs for energy or waste water for a manufacturing company can be reduced significantly. In this way, we increase our customers’ competitive strength and make an important contribution to environmental protection with our energyefficient products and solutions. Siemens IK PI · 2015 3 © Siemens AG 2014 (53 ²(QWHUSULVH5HVRXUFH3ODQQLQJ 3/0 ²3URGXFW/LIHF\FOH0DQDJHPHQW 0DQDJHPHQW/HYHO ‡3URGXFW'HVLJQ ‡3URGXFWLRQ3ODQQLQJDQG6LPXODWLRQ ‡'DWD0DQDJHPHQW 0(6²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fficient automation starts with efficient engineering. Totally Integrated Automation: Efficiency driving productivity. Efficient engineering is the first step toward better production that is faster, more flexible, and more intelligent. With all components interacting efficiently, Totally Integrated Automation (TIA) delivers enormous time savings right from the engineering phase. The result is lower costs, faster time-to-market, and greater flexibility. 4 6,7236WURPYHUVRUJXQJ Siemens IK PI · 2015 © Siemens AG 2014 A unique complete approach for all industries Totally Integrated Automation Efficient interoperability of all automation components As one of the world's leading automation suppliers, Siemens provides an integrated, comprehensive portfolio for all requirements in process and manufacturing industries. All components are mutually compatible and system-tested. This ensures that they reliably perform their tasks in industrial use and interact efficiently, and that each automation solution can be implemented with little time and effort based on standard products. The integration of many separate individual engineering tasks into a single engineering environment, for example, provides enormous time and cost savings. With its comprehensive technology and industry-specific expertise, Siemens is continuously driving progress in manufacturing industries – and Totally Integrated Automation plays a key role. Totally Integrated Automation creates real value added in all automation tasks, especially for: 352),1(7 ,QGXVWULDO(WKHUQHW 352),%86 $6,QWHUIDFH .1;*$00$LQVWDEXV 7RWDOO\ ,QWHJUDWHG 3RZHU • Integrated engineering Consistent, comprehensive engineering throughout the entire product development and production process • Industrial data management Access to all important data occurring in productive operation – along the entire value chain and across all levels • Industrial communication Integrated communication based on international cross-vendor standards that are mutually compatible • Industrial security Systematic minimization of the risk of an internal or external attack on plants and networks • Safety Integrated Reliable protection of personnel, machinery, and the environment thanks to seamless integration of safety technologies into the standard automation Making things right with Totally Integrated Automation Totally Integrated Automation, industrial automation from Siemens, stands for the efficient interoperability of all automation components. The open system architecture covers the entire production process and is based on end-to-end shared characteristics: consistent data management, global standards, and uniform hardware and software interfaces. Totally Integrated Automation lays the foundation for comprehensive optimization of the production process: • Time and cost savings due to efficient engineering • Minimized downtime due to integrated diagnostic functions • Simplified implementation of automation solutions due to global standards • Better performance due to interoperability of systemtested components Siemens IK PI · 2015 5 © Siemens AG 2014 Totally Integrated Power We bring power to the point – safely and reliably. Efficient, reliable, safe: These are the demands placed on electrification and especially power distribution. And our answer – for all application areas of the energy system – is Totally Integrated Power (TIP). It’s based on our comprehensive range of products, systems, and solutions for low and medium voltage, rounded out by our support throughout the entire lifecycle – from planning with our own software tools to installation, operation, and services. Comprehensive answers for power distribution in complex energy systems – from Siemens Smart interfaces allow linking to industrial or building automation, making it possible to fully exploit all the optimization potential of an integrated solution. This is how we provide our customers around the world with answers to their challenges. With highly efficient, reliable, and safe power distribution, we lay the foundation for sustainable infrastructure and cities, buildings, and industrial plants. We bring power to the point – wherever and whenever it is needed. More information: www.siemens.com/tip 6 Siemens IK PI · 2015 © Siemens AG 2014 Totally Integrated Power offers more: • Consistency: For simplified plant engineering and commissioning as well as smooth integration into automation solutions for building or production processes • One-stop-shop: A reliable partner with a complete portfolio for the entire process and lifecycle – from the initial idea to after-sales service • Safety: A comprehensive range of protection components for personnel safety and line and fire protection, safety by means of type testing • Reliability: A reliable partner who works with customers to develop long-lasting solutions that meet the highest quality standards • Efficiency: Bringing power to the point means greater plant availability and maximum energy efficiency in power distribution • Flexibility: End-to-end consistency and modular design of Totally Integrated Power for any desired expansions and adaptation to future requirements • Advanced technology: Reliable power distribution especially for applications in which supply is critical, continuous refinement of the technology Challenges are our speciality Automation Operation & Monitoring Process/ Industrial automation Load management PROFINET Load curves Forecast Maintenance PROFIBUS Status reporting/ failure management ... Protocols Power Quality Cost center Building automation Industrial Ethernet Modbus Electrification Renewables Storage Medium-voltage switchgear technologies and protection technology Transformer Low-voltage switchboard with protection and measuring technology Low-voltage distribution ≤ 110 kV Products, systems and solutions Consulting, planning Engineering Order, delivery Installation, commissioning Operation Service, modernization Siemens IK PI · 2015 7 © Siemens AG 2014 8 Siemens IK PI · 2015 1 © Siemens AG 2014 Introduction 1/2 Industrial communication 1/6 1/8 1/10 1/12 1/14 1/16 1/18 1/20 Industrial bus systems Industrial Ethernet PROFINET PROFIBUS AS-Interface IO-Link Industrial Wireless Communication Industrial Remote Communication 1/23 1/23 Industrial communication Data for practical applications Siemens IK PI · 2015 © Siemens AG 2014 Introduction Industrial communication 1 SIMATIC NET offers all the components necessary for an integrated complete solution and supports the following bus systems: PROFINET/Industrial Ethernet Industrial Ethernet (IEEE 802.3) - the industrial standard based on the international Ethernet standard PROFINET (IEC 61158/61784) - the leading Industrial Ethernet standard for automation Industrial Wireless LAN (IEEE 802.11) - the industrial standard for wireless communication based on the international standard PROFIBUS PROFIBUS (IEC 61158/61784) - the international standard for the field level is the global market leader among fieldbus systems Industrial Ethernet (IEEE 802.3) – PROFIBUS (IEC 61158/61784) – the international standard for area networking is the number one network in the LAN environment. Industrial Ethernet enables powerful communication networks to be constructed over wide areas. the international standard for the field level is the global market leader among fieldbus systems. It allows communication both in manufacturing applications and in process-oriented applications. PROFINET (IEC 61158/61784) – the international standard is based on Industrial Ethernet and allows real-time communication all the way to the field level, but also integrates the enterprise level. With the full utilization of existing IT standards, PROFINET allows isochronous motion control applications, efficient cross-manufacturer engineering and high availability of machines and systems on the Industrial Ethernet. PROFINET supports distributed automation (and controllercontroller communication) and it allows fail-safe applications. 1/2 Siemens IK PI · 2015 © Siemens AG 2014 Introduction Industrial communication 1 AS-Interface AS-Interface (IEC 62026-2/EN 50295) IO-Link - the international standard, which, as an economical alternative to the cable harness, links sensors and actuators by means of a two-wire line. IO-Link - the standard for intelligently connecting sensors and actuators from the field level to the MES level AS-Interface (EN 50295/IEC 62026) – IO-Link – the international standard which, as an alternative to the cable harness, links especially cost-effective sensors and actuators by means of a two-wire line. the standard for intelligently connecting sensors and actuators from the field level to the MES level. Network transitions are implemented via controllers or links. Configuration and diagnostics can be performed from any point in the plant. Siemens IK PI · 2015 1/3 © Siemens AG 2014 Introduction Industrial communication 1 ■ Overview ■ Benefits Your requirements Industrial communication with Totally Integrated Automation Do you want to bring new products quickly onto the market? And at the same time be flexible and in a position to change your product range at short notice and shorten your time-to market? Do you want to be able to manufacture efficiently at low costs? And at the same time optimize the capacity of your plant/ machine and minimize possible downtimes? With Totally Integrated Automation, Siemens is the only manufacturer to offer an integrated range of products and systems for automation in all sectors – from incoming goods and the production process to outgoing goods, from the field level through the production control level to connection with the corporate management level. Then all the machines in your plant should work together perfectly. Therefore, you rely upon open, integrated automation communication not just within the whole company but also for external communication. Avoid isolated automation and information technology solutions by assuring: The advantages of Totally Integrated Automation already pay off as regards design and engineering, but also assembly and commissioning and operation and maintenance. • Continuous flow of information from the actuator/sensor level through to the corporate management level • Availability of information at any location • High-speed data exchange between the different plant sections • Easy, plant-wide configuration and efficient diagnostics • Integrated security functions that block unauthorized access • Fail-safe and standard communication via the same connection Our range Communication networks are of utmost importance for automation solutions. SIMATIC NET – Networking for Industry – stands for a diverse range of modular blocks – Designed for Industry – which contribute to efficiently solving your communications tasks: • In the different automation areas • Across the entire workflow • For the complete plant life cycle • For all industries SIMATIC NET offers solutions which both maximize the benefits of Ethernet and simply integrate fieldbus systems. Noticeable examples are: • The development of the field level for the use of Industrial Ethernet • Complete integration from the field level to the corporate management level • Implementation of state-of-the-art solutions with mobile and wireless communication • The integration of IT technologies Worldwide trends Decentralization has been gaining worldwide importance for a number of years now. A distributed plant structure can reduce installation, maintenance and diagnostics costs. This involves intelligent devices working locally and being connected together across networks. Openness and flexibility are important in order to expand existing setups and to connect up different systems. For this reason, international committees define and standardize the standards for bus systems. 1/4 Siemens IK PI · 2015 Automation solutions can be implemented at little cost. New scope for development allows a quicker and more flexible response to new market requirements. Systems can be easily expanded or converted without having to interrupt ongoing operations. Due to the increased use of Industrial Ethernet in automation, two topics within Totally Integrated Automation are becoming more and more important – PROFINET and SCALANCE. © Siemens AG 2014 Introduction Industrial communication 1 ■ Benefits (continued) PROFIBUS DP AS-Inteface Enterprise Resource Planning (ERP) (e.g. PC) ● ○ Control (e.g. SIMATIC S7-300) ● ● ● ○ Motion Control (e.g. SIMOTION) ● ● ● Intelligent field devices (e.g. ET 200S/CPU) ● ● ● ● Simple field devices (e.g. ET 200) ● ● ● ● Sensors/actuators ● ● ● ● PROFINET, the open and innovative Industrial Ethernet standard fulfils all the demands of industrial automation and ensures integrated, company-wide communication. PROFINET also supports the direct connection of distributed field devices to Industrial Ethernet and the implementation of isochronous motion control applications. PROFINET also allows distributed automation with the support of component technology, as well as vertical integration and the implementation of safety-oriented applications. PROFINET also supports controller-controller communication. Securely and flexibly networked across all levels with SCALANCE network components SCALANCE X Industrial Ethernet Switches, SCALANCE S Industrial Security Modules and Industrial Wireless LAN (IWLAN) access points, client modules (SCALANCE W) and SCALANCE M industrial routers that ideally meet the demands of industrial applications are available for networking the stations on the PROFINET/Industrial Ethernet. The use of wireless communication to automation devices and industrial terminal devices helps to achieve greater flexibility. As a result you can simplify maintenance work and reduce service costs and downtimes. With Safety, even fail-safe communication is possible by means of wireless networking with SCALANCE products. This increases a company's competitiveness considerably. Challenging applications with real-time requirements can be implemented in the radio field. The use of wireless features for moving machines saves cable and servicing costs; driverless transport systems can receive data via the wireless system without requiring cables and remain flexible in the choice of route. Identification systems (e.g. RFID and code reading systems) ● ● ● Drives (e.g. SINAMICS) ● ● ● ● ● ● ● ● ● ● ● SIRIUS (e.g. M200D motor starter, compact starters, monitoring and overload relay) CNC system (e.g. SINUMERIK) ● An overall solution comprises: • Bus system with - Passive network components, e.g. cables - Active network components, e.g. switches Safety-oriented Communication not suitable ○ suitable ● ● ● G_IK10_XX_00003 You need a seamless information flow for your strategic decisions within your company – from the first manufacturing step through operation up to the corporate management level. In order to achieve this, you rely on efficiency and transparency already during engineering. IO-Link PROFINET Use of communication systems Industrial Ethernet PROFINET ... for increasing the productivity of your plant ideally suitable • Interfaces for connecting automation devices to the bus systems - Integrated interfaces - Own communications processors • Network transitions, e.g. IE/PB Link PN IO • Software for configuring the networks • Tools for servicing and diagnostics, e.g. SINEMA Siemens IK PI · 2015 1/5 © Siemens AG 2014 Introduction Industrial bus systems 1 Laptop Industrial bus systems Remote access, e.g. via teleservice Controller Numeric Control Control and monitoring system Motion Control Systems Telecontrol and substation control PROFINET Industrial Ethernet Controller Notebook Field device for intrinsically safe area Control and monitoring system PC/PG/IPC Numeric Control Coupler PROFIBUS PA PROFIBUS ASM456 Field devices RFID system SIMOCODE pro Code reading systems Mobile Panel IO-Link module Protection and monitoring devices The graphic shows the connection of different automation systems to the standardized networks. 1/6 Siemens IK PI · 2015 RFID system SINAMICS Drives G_IK10_XX_00006 Compact starter © Siemens AG 2014 Introduction Industrial bus systems 1 Telecontrol and substation control PC S7-1200 with CP 1242-7 Controller PC/PG/IPC Database Server IWLAN Controller Security Access Point Controller PC/PG Access Point Industrial Ethernet Switches IWLAN RCoax Cable Controller Wireless Devices Link RF180C Field devices DP-Slave Mobile Panel Drives RFID system IO-Link master Motion Control Systems Code reading systems Access Point Link IO-Link module LOGO! Protection and monitoring devices Controller RFID system AS-Interface Link Power supply Client Module Compact starter Compact Compact starter feeder Slaves Field device Slaves Signalling column Siemens IK PI · 2015 G_IK10_XX_00007 Power supply 1/7 © Siemens AG 2014 Introduction Industrial bus systems 1 Industrial Ethernet ■ Overview Industrial Ethernet provides the industrial area with a powerful network that complies with the IEEE 802.3 (Ethernet) and 802.11 a/b/g/h/n (wireless LAN) standards. Ethernet is the world's current Number 1 in the network environment and offers significant benefits: The diverse options of Ethernet and the Internet that are already available today in the office sector can also be used in factory and process automation by means of Industrial Ethernet. Ethernet technology, which has been used successfully for decades, allows users to precisely match network performance to requirements. The user can choose the data throughput rate to suit particular needs, as integrated compatibility makes it possible to introduce this technology in stages. • High availability since existing networks can be extended without any adverse effects • Fast commissioning thanks to the simplest connection method • Virtually unlimited communication capabilities, since scalable performance using switching technology and high data rates are available • Networking of the most varied application areas such as the office and production areas • Company-wide communication thanks to the Internet connection option, with security components providing for data integrity • Investment protection through continuous compatible further development • Precise time-based assignment of events in the overall plant by means of plant-wide clock control. SIMATIC NET, the industrial communication system from Siemens, relies on this proven technology. Siemens has already supplied several million connections worldwide in tough industrial environments subject to electromagnetic interference. SIMATIC NET provides important supplements to Ethernet technology for industrial environments: • Network components of the SCALANCE product families for the use of wired and wireless communication in harsh industrial environments • Fast on-site assembly using the FastConnect cabling system • Failsafe networks through high-speed redundancy and redundant power supply • Continuous monitoring of network components through an effective signaling concept, and network monitoring software The following communication functions/services are offered by Industrial Ethernet: PG/OP communication Comprises integrated communication functions which allow data communication via SIMATIC, SIMOTION and SINUMERIK automation systems with every HMI device and SIMATIC PG (STEP 7). PG/OP communication is supported by PROFINET/ Industrial Ethernet and PROFIBUS. S7 communication S7 communication is the integrated communication function (system function block) for S7-400 or loadable function blocks for S7-300, which have been optimized within SIMOTION, SINUMERIK and SIMATIC S7/WinAC. It also enables PCs/IPCs and workstations to be connected. The maximum volume of user data per task is 64 KB. S7 communication offers simple, powerful communication services and provides a network-independent software interface. Open communication The open communication (SEND/RECEIVE) allows the SIMATIC S7 controllers to communicate with other SIMATIC S7 and SIMATIC S5 controllers, PCs/IPCs and third-party systems. In addition, for the simple connection of HMI stations, FETCH and WRITE are offered. 1/8 Siemens IK PI · 2015 © Siemens AG 2014 Introduction Industrial bus systems Industrial Ethernet ■ Overview (continued) Control and monitoring system S7-200 with MD720 SCALANCE M874 Database Server S7-1200 with CP1242-7 S7-300 with SINAUT ST7 Field PG PC with WinCC flexible and TeleControl Server Basic S7-400 Mobile Panels S7-1500 SINUMERIK SIMOTION C/P/D SIMATIC IPC with WinAC SCALANCE S PROFINET Access Point SCALANCE W S7-300 S7-1200 Industrial Ethernet RF180C SCALANCE X Energy monito- Code ring reading systems Access Point SCALANCE W RFID system ET 200S with IM 151-3 PN FO Industrial Ethernet (optic) Client Module SCALANCE W SINAMICS ET 200S with IM 151-3 PN FO SIMATIC IPC with WinAC ET 200 SIRIUS M200D G_IK10_XX_10230 ET 200 Complete overview of Industrial Ethernet The socket interface for Industrial Ethernet allows data communication with computers via TCP/IP. On this interface which is widespread in the PC and UNIX world, users can freely program the data exchange. The SEND/RECEIVE blocks (S/R) are used as access to TCP/IP in SIMATIC S7. OPC (Openness, Productivity & Collaboration) is a standardized, open and cross-vendor software interface. It permits interfacing of OPC-capable Windows applications to S7-communication, open communication (SEND/RECEIVE) and PROFINET. IT communication Information technology (IT) with e-mail, File Transfer (FTP), and web technology integrates SIMATIC, SIMOTION and SINUMERIK into IT via Industrial Ethernet. In the office environment, e-mail, FTP, and web browsers have prevailed as widespread means of communication. PROFINET communication This communication is compliant with the IEC 61158/61784 standard. PROFINET, the international standard, uses Industrial Ethernet and enables real-time communication right down to the field level. Siemens IK PI · 2015 1/9 1 © Siemens AG 2014 Introduction Industrial bus systems 1 PROFINET ■ Overview PROFINET – The Ethernet standard for automation PROFINET innovations PROFINET is the leading Industrial Ethernet standard with more than 7,6 1) million nodes worldwide. PROFINET has been expanded by a number of innovative features. These simplify the system configuration, in safety-critical applications for example, and support a leaner and more flexible topology in many different scenarios. PROFINET makes businesses more successful by speeding up processes, boosting productivity, and increasing plant availability. With PROFINET, Siemens is applying the Ethernet standard to automation. PROFINET enables high-speed and secure data exchange at all levels, thus making it possible to implement innovative machine and plant concepts. Thanks to its flexibility and openness, PROFINET offers users maximum freedom when engineering and structuring their plant architectures. PROFINET's efficiency means optimal utilization of available user resources and a significant increase in plant availability. Innovative Siemens products and the performance of PROFINET provide a sustained boost to company productivity. The I-Device (intelligent IO device) function enables simple and fast controller-controller communication through direct access to the IO address image with the PROFINET IO protocol. Local controllers such as the ET 200S CPU can be integrated into modular machines more easily, for example. The Shared Device function allows two controllers to access the same PROFINET IO Device, such as a distributed ET 200 or a drive in a safety application. Because fewer devices need to be installed in the field, the engineering, cabling, energy and installation costs are reduced. Plant availability can be increased using a ring topology and the Media Redundancy Protocol (MRP) This runs directly via the integrated RJ45 ports on PROFINET devices and can be combined in any way with the relevant Industrial Ethernet switches (e.g. SCALANCE X-200). High network availability can be achieved without reconfiguration time using the MRPD procedure (Media Redundancy for Planned Duplication). Advantages at a glance More flexibility with PROFINET Industrial Wireless LAN (IWLAN) IWLAN reduces maintenance costs, increases reliability, and gives a convincing high communication performance. Only PROFINET allows the use of IWLAN with safety. Safety Safety-related communication via PROFIsafe reliably protects personnel, the environment, and plants. Flexible topologies PROFINET also enables the use of star, tree and ring topologies in addition to the linear topology. Open standard Thanks to its openness, PROFINET creates the basis for a uniform machine/plant automation network to which programmable controllers as well as standard Ethernet devices can be connected. Web tools PROFINET is 100 percent Ethernet and supports TCP/IP. Among other things, this enables the use of Web technologies, such as access to the integrated Web server of the field devices. Expandability With PROFINET, network infrastructures can be expanded as desired, even during operation. 1) Source: PROFIBUS and PROFINET International (PI), values at end of 2013 1/10 Siemens IK PI · 2015 © Siemens AG 2014 Introduction Industrial bus systems PROFINET ■ Overview (continued) Your advantages at a glance Flexibility Tailor-made plant concepts Efficiency Performance Optimal use of resources Increased productivity One cable for all purposes Speed Safety Device/network diagnostics High precision Flexible topologies Energy efficiency Large quantity structures Open standard Easy cabling High transmission rate Web tools Fast device replacement Redundancy Expandability Ruggedness/stability Fast start-up More efficiency with PROFINET G_IK10_XX_10304 Industrial Wireless LAN More performance with PROFINET One cable for all purposes Speed PROFINET offers a host of functions on a single cable, allowing convergence of machine data and standard IT data. This creates consistency and cuts costs by reducing the overhead for cabling and training. Fast motion control applications need high-speed data exchange. PROFINET's short cycle times increase the productivity of machines and plants. Device and network diagnostics Communication via PROFINET is deterministic. A jitter of < 1 µs results in maximum precision cycles and thus ensures high product quality. Extensive diagnostic data can be read out from the devices to locate faults quickly. HTML standard Web sites are used for servicing PROFINET devices – locally and remotely. Increased energy efficiency PROFIenergy switches off individual loads or entire production units during breaks – in a coordinated and centrally controlled way. Easy cabling Precision Large quantity structures With PROFINET, up to 256 devices can be managed by one SIMATIC controller. The number of nodes per network is more or less unlimited. High transmission rate Fault-free establishment of industrial networks in a short time without the need for specialist knowledge: PROFINET makes this possible with the FastConnect system. By using Ethernet, PROFINET achieves a significantly higher transmission rate than previous fieldbuses. This enables problem-free transmission of even large volumes of data without affecting I/O data transfer. Quick device replacement Redundancy When replacing a PROFINET device, the IO Controller detects the new device and automatically assigns its name. Higher plant availability can be achieved by means of a redundant installation. This can be implemented both with the help of external switches and directly via integral PROFINET interfaces. Extremely robust The use of switches even in field devices prevents faults in one section of the network from influencing the entire plant network. PROFINET enables the use of fiber-optic cables for areas that are particularly sensitive to EMI. Fast start-up In modular plants, IO controllers must be able to detect new machines or plant sections quickly. With Fast Startup, PROFINET can detect devices and connect them to the IO controller within 500 ms. Siemens IK PI · 2015 1/11 1 © Siemens AG 2014 Introduction Industrial bus systems PROFIBUS Complete overview of PROFIBUS SIMATIC S7 SINUMERIK SIMOTION C/P/D Notebook S7-300F with standard and F I/Os Field PG M PROFIsafe PROFIBUS DP ET 200pro ET 200M MSS MICROMASTER SIMOCODE PRO Field devices ASM456 ET 200eco RFID system PROFIBUS is used to connect field devices, e.g. distributed I/O devices or drives, to automation systems such as SIMATIC S7, SIMOTION, SINUMERIK or PCs. PROFIBUS is standardized in accordance with IEC 61158/61784 and is a powerful, open and rugged fieldbus system with short response times. PROFIBUS is available in different forms for various applications PROFIBUS DP (distributed I/O) connecting distributed field devices, e.g. SIMATIC ET 200, or drives with extremely fast response times. PROFIBUS DP is used when sensors/actuators are distributed at the machine or in the plant (e.g. field level). The actuators and sensors are connected to the field devices. The field devices are supplied with output data in accordance with the master/slave technique and transfer input data to the controller or PC. Siemens IK PI · 2015 DP/ASDP/AS-i Interface F-Link Link 20E Code reading systems RFID system 1/12 AS-Interface IO-Link module Compact feeder arrangement SINAMICS DP/AS-i LINK Advanced ET 200M with F-IO ET 200L Sensors IO modules Openness all along the line Dank Thanks to the openness of PROFIBUS DP, standardcompliant components from different manufacturers can also be connected. The IEC 61158/61784 standards provide future protection for your investment. A simple link to other bus systems, e.g. from the AS-Interface, is implemented by means of links and thus permits an integrated solution in the field of failsafety for the protection of both human and machine. Siemens has a complete range of products of standard and failsafe controllers, network components, communication software and field devices. And for field device manufacturers, Siemens offers everything to do with the PROFIBUS DP interface, such as ASICs, training, certification, and much more. PROFIsafe permits standard and safety-related communication on one and the same bus cable. It is an open solution for safety-related communication over standard buses and uses the PROFIBUS services. G_IK10_XX_50026 1 © Siemens AG 2014 Introduction Industrial bus systems PROFIBUS SIMATIC PC with WinAC Vision Sensor VS 120 Monitoring and control system SIMATIC TDC SIPART PS2 SIMATIC PDM * PROFIBUS DP PROFIBUS PA DP/DP coupler Customized solutions with ASICs DP/PA Coupler/ Link Mobile Panel Customized solutions with ASICs SITRANS P S7-1200 with CM 1242-5 RS 485iS coupler ET 200iSP SITRANS FM DP slave G_IK10_XX_50027 Power Rail Booster Intrinsically safe area * PDM is a parameterization tool for intelligent field devices Isochronous mode PROFIBUS PA (Process Automation) The CPU, I/O and user program are synchronized with the PROFIBUS cycle. The "Isochronous mode" function is supported by many CPUs of SIMATIC, SIMOTION, SINUMERIK and servo drives. The drives are controlled using the PROFIdrive profile. expands PROFIBUS DP with intrinsically safe transmission of data and power (e.g. transducers in the food processing industry) in accordance with the international standard IEC 61158-2 (same protocol, different physical properties). PROFIBUS PA is used predominantly in the hazardous areas of refineries (chemical, oil and gas). Siemens IK PI · 2015 1/13 1 © Siemens AG 2014 Introduction Industrial bus systems 1 AS-Interface ■ Overview Sensors, valves, actuators, drives – many different components operate on the field level. All of these actuators/sensors must be connected to an automation system. Distributed I/O devices are used for this; to a certain extent as intelligent outposts directly on-site. As a cost-effective alternative to the cable harness, AS-Interface links the components of the field level by means of a simple 2-wire cable for data and power. AS-Interface is standardized as an international industrial standard according to EN 50295 and IEC 62026-2 and is supported worldwide by a number of member companies of the AS-International Association, including the leading manufacturers of actuators and sensors. AS-Interface is used where individual actuators/sensors are spatially distributed throughout the machine (e.g. in a bottle filling plant). AS-Interface is a single master system. There are communications processors (CPs) for SIMATIC and for SIMOTION and links that control field communication as masters. With the AS-Interface specification V2.1 or V3.0, up to 62 slaves can be connected. The AS-Interface specification V3.0 allows a maximum of 1000 digital inputs/outputs to be connected (profile S-7.A.A: 8DI/8DO as A/B slave). New profiles allow extended addressing (A/B) to be used for analog slaves, too. The analog value transmission is accelerated via "fast analog profiles". Thanks to the integrated analog value processing in the masters, the access to analog values is just as easy as the access to digital values. For connecting the AS-Interface to PROFIBUS DP, the DP/AS-i LINK Advanced, DP/AS-i F-Link or DP/AS-Interface LINK 20E are available with degree of protection IP20. This enables the use of AS-Interface as a subordinate network for PROFIBUS DP. The IE/AS-i LINK PN IO allows AS-Interface to be connected to Industrial Ethernet and thereby a direct embedding in the PROFINET environment. 1/14 Siemens IK PI · 2015 © Siemens AG 2014 Introduction Industrial bus systems AS-Interface ■ Overview (continued) SIMATIC/ SIMOTION SINUMERIK PROFINET Industrial Ethernet DP/AS-i F-Link AS-Interface power supply DP/AS-i LINK Advanced DP/AS-i Link 20E S7-300 CP 343-2(P) AS-Interface power supply AS-Interface Safety switch without with tumbler tumbler Safe EMERGENCY-STOP and field module PROFIBUS DP S7-300 CP343-2(P) S7-200 with CP 243-2 S7-1200 with CM 1243-2 Digital and analog K20, K45, K60 field modules CM AS-i Master ST for ET 200SP Signaling columns IE/AS-i LINK PN IO Pushbuttons Indicator lights Safe and standard control cabinet modules S22.5 and S45 24 V DC power supply MSS Advanced MSS ASIsafe 3RA2 load feeders 3RA6 compact starters SIRIUS M200D motor starters or G110D inverters G_IK10_XX_20027j Load feeders with safe AS-i outputs Example of a system configuration Cost savings AS-Interface replaces costly cable harnesses and connects binary actuators and sensors such as proximity switches, valves or indicator lights, as well as analog signals with a controller such as SIMATIC. In practice this means: Installation runs smoothly because data and power are transported together over one single line. Thanks to the specially developed ribbon cable (yellow in color) and insulation displacement technology, the AS-Interface slaves can be connected anywhere. This concept is extremely flexible and has a great effect on savings. No expert knowledge is required for installation and commissioning. Furthermore, through simple cable laying and the clear cable structure as well as the special design of the cable, you not only significantly reduce the risk of errors, but also service and maintenance costs. Siemens IK PI · 2015 1/15 1 © Siemens AG 2014 Introduction Industrial bus systems IO-Link ■ Overview Engineering and visualization IO-Link engineering: SIMATIC S7-PCT Visualization: SIMATIC HMI WinCC Switching cabinet installation Field installation Controller S7-300/ S7-400 Controller S7-1200 PROFINET SIRIUS 3RA6 compact starters SIRIUS 3UG48 relay SIMATIC ET 200eco PN with IO-Link master ET 200SP (ET 200S) with IO-Link master IO-Link SIRIUS 3RA2 load feeders with 3RA27 function modules SIRIUS 3RB24 overload relays SIRIUS 3RS14/ 3RS15 relays K20 IO-Link module SIRIUS 3RT2 contactor with SIRIUS 3RR24 relay Actuators RFID system RF200 RFID system RF200 Standard sensors IK10_30141c 1 Uninterrupted communication down to the last meter: the point-to-point interface IO-Link IO-Link – more than just another interface IO-Link is the smart concept for the standardized linking of switching devices and sensors to the control level by means of an economical point-to-point connection. The new communications standard IO-Link below the fieldbus level allows central fault diagnosis and location as far as the actuator/sensor level and simplifies both commissioning and maintenance by allowing the parameter data to be modified dynamically, direct from the application. Improvements in the intelligence of field devices and their integration in the overall automation support data access down to the lowest field level. The result: greater plant availability and reduced engineering overhead. As an open interface, the IO-Link can be integrated into all common fieldbus and automation systems. Consistent interoperability ensures maximum protection of investment. This also applies in the context of existing machine concepts for continued use of sensors without an IO-Link interface. 1/16 Siemens IK PI · 2015 © Siemens AG 2014 Introduction Industrial bus systems IO-Link ■ Overview (continued) Together for integrated quality The requirements for integrated communication are increasing. At the same time, the variety of field devices, actuators, and sensors is increasing immensely – with ever greater intelligence. IO-Link offers the solution for these requirements and is seen by manufacturers as a valuable addition to the communications landscape (including AS-Interface). As a committed driver of this issue, Siemens is further developing not only its product and system range accordingly, but by integrating IO-Link in Totally Integrated Automation, it is also providing a unique integrated communication solution. Engineering Reduced engineering times • Standardized, open system for more flexibility (third-party IO-Link devices can be integrated in the engineering) • Uniform and transparent configuration and programming through integrated engineering (SIMATIC STEP 7) • Freely available function blocks for SIMATIC for user-friendly parameterization and diagnostics, and read-out of measured values • Efficient engineering thanks to use of off-the-shelf faceplates in SIMATIC HMI • Low error rate in CAD circuit design thanks to reduction in control circuit wiring Commissioning Reduced commissioning times • Faster installation and minimized error rate thanks to reduction in control circuit wiring • Space savings in the control cabinet • Low-cost wiring technology with several branches thanks to unrestricted use of existing Siemens components Operation and maintenance Increased plant availability • High level of transparency in the plant down to the field level • Reduction of downtime and maintenance times through plant-wide diagnostics and faster error correction • Support for preventive maintenance • High transparency through incorporation of energy management systems, readout of current values, and diagnostic messages • Shorter conversion times thanks to central parameter and recipe management for field devices as well Siemens IK PI · 2015 1/17 1 © Siemens AG 2014 Introduction Industrial bus systems Industrial Wireless Communication ■ Overview Within the scope of industrial communication, wireless communications opens up new perspectives – from partial modernization of a plant, right up to optimizing complex logistics or production processes. On the basis of Wireless Remote Networks, RUGGEDCOM WiN, Industrial Wireless LAN and WirelessHART, Siemens offers solutions for reliable automation with Industrial Wireless Communication. Wireless Remote Networks RUGGEDCOM WiN Industrial Wireless LAN WirelessHART G_IK10_XX_30229 1 Reliable, wireless communication Wireless Remote Networks – low-cost and versatile wireless technology for longer distances Industrial Wireless LAN – flexible, plant-wide wireless infrastructure Continuous communication between widely separated plant sections in the area of water/wastewater, or high-speed remote maintenance access to machines and plants on the other side of the world - these are just two of the countless ways you can reap the benefits of Wireless Remote Networks. Thanks to integration in a telecontrol system or an HMI/SCADA system, transferred process data is available at any time via mobile radio. Wireless solutions are increasingly becoming a matter of course in machines and plants. In the case of high data communication requirements, Industrial Wireless LAN (IWLAN) backs innovations like deterministic radio and the Industrial Ethernet standard PROFINET. Thanks to the use of PROFIsafe via IWLAN, PROFINET opens up completely new perspectives – from efficient engineering, through real-time solutions, all the way to safety-related tasks. Furthermore, an IWLAN infrastructure can also be used for additional applications such as video monitoring. RUGGEDCOM WIN RUGGEDCOM WiN products according to the IEEE 802.16e-2005 (WiMax) standard support longer distances and are designed for use in critical locations or under demanding environmental conditions. 1/18 Siemens IK PI · 2015 WirelessHART – wireless connection of the process instrumentation WirelessHART is an open industry standard, developed for the particular requirements of wireless communication for field devices in the process industry. It meets all specific requirements for reliability, security, economy and user-friendly operation system-wide. With more than 30 million installed devices worldwide, HART technology is the most frequently used communication protocol for intelligent process instrumentation at the field level. WirelessHART is backwards-compatible with the wired HART technology and thus offers maximum investment security for hardware, software and expertise. © Siemens AG 2014 Introduction Industrial bus systems Industrial Wireless Communication ■ Overview (continued) Container terminal Automation control center Industrial Ethernet SCALANCE W786C-2 RJ45 SCALANCE XR324-12M SCALANCE W786C-2 RJ45 ANT795-6MT IWLAN Controller SCALANCE WLC711 AGV ANT795-6MT SCALANCE W748-1 RJ45 AGV SCALANCE W748-1 RJ45 ANT795-6MT ANT795-6MT W748-1 RJ45 W748-1 RJ45 AGV AGV SCALANCE W786C-2 RJ45 SCALANCE W786C-2 RJ45 G_IK10_XX_30273 Container ship AGV = Automated Guided Vehicle Application example for controller-based IWLAN applications with a large number of access points, e.g. in a container terminal Advantages of a wireless communication network • Increased competitiveness, since greater flexibility is achieved through mobility • Maintenance work is simplified, service costs and downtimes are reduced, and personnel are used optimally • No wear and tear of rotating and moving equipment or system components • Integrated wireless network for voice and data across the divisions of the company • Remote diagnostics for different production machines from a central service location reduces service costs • Awkwardly located installations can be accessed easily; there is no need for complex wiring Siemens IK PI · 2015 1/19 1 © Siemens AG 2014 Introduction Industrial bus systems Industrial Remote Communication ■ Overview Industrial Ethernet PC with Telecontrol Server Basic PC with STEP 7 V11 tunnel SCALANCE M812-1 Alarming with text message Mobile phone VPN tunnel of GPRS provider GPRS Internet GPRS fixed IP address dynamic IP address fixed IP address dynamic IP address Communication S7-1200 with CP 1242-7 Station S7-1200 with CP 1242-7 Station Station Provider M2M Provider M2M S7-1200 with CP 1242-7 S7-1200 with CP 1242-7 Station Provider A M2M SIM card contract Provider B Standard SIM card contract G_IK10_XX_30283 1 Efficient remote access to plants and machines with SIMATIC via industrial remote access Efficient industrial remote access Teleservice (remote maintenance/diagnostics) Global remote access to far-flung plants, remote machines and mobile applications is gaining in significance – both in industry and in industry-related areas. With a comprehensive range of solutions for industrial remote access, Siemens offers the ideal basis for efficient and reliable monitoring and control of widely distributed plants of any size. Teleservice is data exchange with physically remote technical plants (machines, plants, computers, etc.) for the purpose of error detection, diagnostics, maintenance, repair, or optimization. Secure and flexible access worldwide Industrial plants are often distributed over large areas – sometimes even across national borders. Siemens offers proven solutions for industrial remote access, such as flexible telecontrol systems and efficient remote maintenance. Whether in public infrastructure, the manufacturing or process industry: With comprehensive solutions for teleservice and telecontrol, Siemens is the right partner every time. 1/20 Siemens IK PI · 2015 Telecontrol Telecontrol involves the connection of distant process stations to one or more central control systems. Various different public or private networks (Remote Networks) can be used for communication for the purposes of monitoring and control. Event-driven or cyclic exchange of process data is performed with special telecontrol protocols and enables the operating personnel to manage the overall process effectively. The telecontrol systems are based on SIMATIC. They supplement the SIMATIC system with corresponding hardware and software, and thus permit individual process stations to be networked over Remote Networks). The data for this is transmitted via classical WAN, e.g. copper dedicated cable, dial-up networks, wireless, but also via IP-based networks such as mobile wireless networks or the Internet. © Siemens AG 2014 Introduction Industrial bus systems Industrial Remote Communication ■ Overview (continued) TeleControl Basic Control center systems Telecontrol Basic connects the control center via the Telecontrol Server Basic control center software with the substations, consisting of SIMATIC S7-1200 controllers with CP 1242-7 or CP 1243-1 GPRS module for Ethernet-based connections. The server also supports the connection of S7-200 stations with MD720 modems. Wireless GPRS technology or IP-based networks, such as DSL, are available as transmission media. An S7-1200 substation permits remote communication with a control center (service center) as well as direct slave-slave communication with other S7-1200 substations. Small-scale applications with few outstations can be implemented, as well as largescale plants comprising up to 5000 outstations. International approvals permit worldwide use. A number of different variants can be selected for setting up the control center depending on the process requirements and extent of the information: Extended Telecontrol Server Basic functionalities allow the use of telecontrol server services. The overall solution also includes the teleservice function and thus provides, for example, worldwide access to the S7-1200 stations for international plant and machine manufacturers. TeleControl Professional TeleControl Professional comprises the Siemens telecontrol systems for extensive, expanded applications in the process industry. Control systems such as PCS 7, WinCC and third-party control systems with OPC allow reliable control and monitoring of outstations based on the SIMATIC S7-1200, S7-300 and S7-400 controllers. The outstations and substations can communicate with each other as well as with one or more control centers. Transmission networks Telecontrol supports a wide variety of communication networks. In the classical WAN sector, these are: • Dedicated lines (private or leased) • SINAUT ST7cc This WinCC-based PC control center is the ideal control center system for both SINAUT ST7 and SINAUT ST1. It has been developed specifically for event-driven and time-stamped data transmission on the SINAUT system and can have a single or redundant design. • PCS 7 with PCS 7 TeleControl This is the ideal control center system for plants in which larger local automation tasks have to be combined with telecontrol connections. In addition to SINAUT ST7, remote stations with other communication protocols can be connected, e.g. over DNP3 or IEC 870-5-101/-104. • WinCC TeleControl This WinCC-based control center system offers the connection of SIMATIC substations to other telecontrol protocols such as DNP3 or IEC 870-5-101/-104. • SINAUT ST7sc This OPC server software is ideal for connecting the SINAUT telecontrol system to control centers from other vendors via OPC client function. ST7sc features extensive buffer mechanisms which prevent data from being lost even if the OPC client fails, and it can have a single or redundant design • SIMATIC S7 controller as control center Like the substations, this control center comprises a SIMATIC S7-300 or S7-400 controller and is suitable for simpler applications requiring only one current process image of the telecontrol stations. The station process control can be influenced by entering commands, setpoints or parameters. The control center can also be used to extend a PC control center (SINAUT ST7cc or ST7sc), e.g. for data output on a panel, as an emergency operating system, or for implementing crossstation control tasks. • Private radio networks (optionally with time slot procedure) • Dial-up networks (analog, ISDN, GSM) SIMATIC NET also offers appropriate modems for conventional WANs. Communication, however, is also possible via Ethernetbased WAN, namely: • Via Internet connections, e.g. with SCALANCE M ADSL2+ routers • Via 2-wire connections, e.g. with SCALANCE M SHDSL routers • Via serial or Ethernet-based wireless systems, e.g. via UHF radio devices or Industrial Wireless LAN with SCALANCE W or RUGGEDCOM WiN (WiMax) • Via fiber-optic conductors, e.g. through use of SCALANCE X switches with optical ports; distances of up to 120 km can then be covered • Via mobile networks and the Internet using GPRS, GPRS(E) or UMTS and DSL There are no restrictions in terms of network combinations in a project. Star, line and node topologies can be designed, and also mixed configurations of these. A station can be linked using two transmission paths to permit redundant data transmission. The two paths can be of the same type or also different, e.g. dedicated line combined with telephone network or ISDN with DSL. Siemens IK PI · 2015 1/21 1 © Siemens AG 2014 Introduction Industrial bus systems Industrial Remote Communication ■ Overview (continued) Teleservice / Remote Access (remote diagnostics and remote maintenance) Remote diagnostics and remote maintenance of production plants are indispensable in modern automation technology. They are more efficient and more cost-effective than an on-site service employee. This allows faults to be detected and cleared much faster, downtimes of machines are reduced and their availability is increased. Machines and plants are increasingly operated in places which are far away from the production site. Plant constructors must nevertheless be able to provide support in the event of a fault. And with the industrial security concept from Siemens, the increasing security requirements for remote access of this type are fulfilled. During the warranty period in particular this can result in high costs. TeleService helps to reduce this risk. The possible applications for TeleService are manifold. Plants can be diagnosed, values set and data transmitted from anywhere in the world via a telephone cable. TeleService also enables the SIMATIC controllers to send text messages per SMS or e-mail, making a significant contribution to saving travel and personnel costs in service work. SCALANCE M812-1 Field PG SINAUT ST7cc/sc VPN tunnel Control center Industrial Ethernet Internet • For flexible remote maintenance access from any Internet connection – whether in the office, home office or hotel room – SOFTNET Security Client is the right software solution for connecting to the SCALANCE S Security Module installed in the plant. • For plants without wired network connection, the M874-2 GPRS router establishes remote maintenance access to the SCALANCE S in the service center. • The SCALANCE M874-3 and M875 UMTS routers or the M812 and M816 ADSL routers are available for plants requiring remote maintenance access at an especially high bandwidth In all cases, the communication is reliably protected by authentication and encryption via a virtual private network (VPN) tunnel, in order to rule out the possibility of industrial espionage or manipulation. Siemens Remote Services The teleservice product portfolio of Siemens is supplemented with a service concept for SRS. "Siemens Remote Services" provides a powerful, secure platform for remote access to machines and plants. The inclusion of "shared experts" ensures effective support, not only from Siemens but also from the company's own specialists. 1/22 Siemens IK PI · 2015 SCALANCE M874-3 Field PG Smartphone S7-300 Optimum remote maintenance is based on reliable, permanently available, secured and economical data connections. • For continuous connections or simultaneous access to several plants, a solution via the Internet using SCALANCE S modules is recommended, both on the service and the plant side. Provider APN Mobile network Teleservice via IP-based networks Depending on the application, SIMATIC NET provides the appropriate solution: SCALANCE M812-1 Tablet TIM 3V-IE Advanced Station G_IK10_XX_30278 1 Remote access via an UMTS-based Internet connection Remote networks Any type of remote communication is based on the public and private networks used for this purpose (e.g. mobile radio or fixed network), referred to as "remote networks". Under the name SCALANCE M, Siemens offers a comprehensive range of high-performance transmission components, routers and modems that are tailored to the specific properties of the respective remote networks or their transmission media and therefore combine the maximum possible security with reliability. Regardless of whether spontaneous or permanent transmission, whether high or moderate bandwidth, whether mobile or stationary – with the SCALANCE M products for IP-based connectivity, users have a comprehensive spectrum of components at their disposal for remote access – flexible, optimized for industrial use and integrated into the TIA environment and into the Industrial Security concept. SCALANCE M devices can be used universally in the fields of telecontrol, teleservice (remote diagnosis and maintenance), and any other application for industrial remote communication. © Siemens AG 2014 Introduction Industrial communication Data for practical applications ■ Overview Data for practical applications Communication Systems Compared in Practice Industrial Ethernet PROFINET PROFIBUS DP AS-Interface IO-Link 10/100 Mbit/s 1/10 Gbit/s (only 100 Mbit/s for PROFINET) 9.6 Kbit/s – 12 Mbit/s adjustable Send cycles 5 ms 4.8/38.4 Kbit/s or SIO (switching operation) more than 1000 125 62 2 Criteria Number of nodes Maximum 31.25 Kbit/s 1) 125 DP/PA links 1) 31 field devices per DP/PA link Length of the network Between two nodes: electrical up to 100 m optical up to 5 km (multimode) or up to 120 km (singlemode) Topology Line Tree Ring Star 1) For the entire network: electrical up to max. 10 km: - without repeater up to 1 km - with repeater up to 10 km optically with optical link modules (OLM) up to 1875 km For the entire network: electrical up to max. 600 m: - with extension plug up to 200 m - with repeater or extender up to 300 m - with repeater and extension plug up to 600 m Line Tree Ring Star Line Tree Star electrical up to 20 m Point-to-point Power supply - separate 24 V DC - Power-over-Ethernet (PoE) separate 24 V DC (also via hybrid cable) Sensors and modules: over bus cable actuators: over UAUX 2 V DC (standard case) or over bus cable (30 V) integrated Fail-safe communication PROFIsafe SIL3, PL e PROFIsafe SIL3, PL e ASIsafe SIL3, PL e – G_IK10_XX_00004 Data rate 1) For PROFIBUS PA The table contains empirical values that can serve as recommendations for selecting the optimum network. Siemens IK PI · 2015 1/23 1 © Siemens AG 2014 Introduction 1 Notes 1/24 Siemens IK PI · 2015